Transforme sua casa com as mais recentes soluções multi-eletrônicas, desde iluminação inteligente até dispositivos controlados por voz — tudo projetado para tornar a vida mais fácil, segura e conectada. Otimize suas operações com o Sistema de Monitoramento Bently Nevada 3500, que oferece monitoramento em tempo real de vibração e condição das máquinas para prevenir falhas e maximizar o tempo de atividade.
SKU:330901-00-90-10-02-05
330901-00-90-10-02-05 Bently Nevada 9.0-Inch Proximity Probe
Manufacturer: Bently Nevada
Product No.: 330901-00-90-10-02-05
Product Type: 3300 NSv Probe
Product Origin: USA
Payment:T/T, Western Union
Weight: 150g
Shipping port: Xiamen
Warranty: 12 months
Compartilhar
- Entrega Rápida
- Suporte 24 horas por dia, 7 dias por semana
- Garantia de Qualidade
Descrição
Product Overview
The Bently Nevada 330901-00-90-10-02-05 is a U.S.-manufactured, high-precision non-contact proximity probe from the 3300 XL NSv (Narrow System variant) Transducer Series. This eddy current sensor is designed for critical machinery protection, measuring dynamic shaft vibration, axial position, and phase reference timing on rotating equipment. Specifically optimized for installations with limited side-view clearances or small target footprints, its tightly focused electromagnetic field prevents cross-talk with adjacent structural counterbores or housing steps, ensuring stable data tracking for small fluid-film bearing configurations.
Technical Configuration
Model Configuration Breakdown
The alpha-numeric engineering code defines the exact hardware configuration built into this deep-reach probe assembly:
- 330901: Core model identifier specifying the high-precision 3300 XL NSv proximity probe with 1/4-28 UNF thread without armor.
- 00: Zero unthreaded length option, creating a fully threaded outer barrel structure.
- 90: Extended 9.0-inch total case length designed to span thick structural machine walls.
- 10: 39-inch (1.0-meter) total electrical length provided by an integrated standard coaxial cable.
- 02: Miniature coaxial ClickLoc connector interface delivering robust mechanical retention.
- 05: Multiple approvals compliance profile certifying the hardware for international hazardous areas.
Technical Specifications
| Model Designation | 330901-00-90-10-02-05 |
| Product Series | 3300 XL NSv Proximity Transducer System |
| Mechanical Threading | Fully threaded 1/4-28 UNF barrel, 9.0-inch overall case length |
| Cable Infrastructure | 1.0 meter (39 inches) 75 Ω coaxial cable (FEP insulated) |
| Connector Specification | Miniature coaxial ClickLoc connector (02 setup) |
| Core Housing Material | AISI 304 Stainless Steel (SST) |
| Sensing Tip Material | Polyphenylene Sulfide (PPS) |
| Internal DC Resistance | 4.2 Ω ± 0.5 Ω (Center conductor to outer shield) |
| Temperature Bounds | Operating / Storage: -52°C to +177°C (-62°F to +351°F) |
| Pressure Defense Mechanism | Integrated Viton O-ring tip-to-case differential pressure seal |
| Product Net Weight | Approximately 14 to 150 g (0.5 to 5.3 oz) based on lead profile |
Installation Guide
Mechanical Threading and Torque Bounds
Thread the 9.0-inch extended probe housing carefully into the designated 1/4-28 UNF mounting bracket. Given the probe's light weight of 14 to 150 g, use precise hand adjustment during initial insertion. Do not drive the tip past the maximum 0.375-inch thread engagement limit to avoid contacting internal moving components. Once calibrated, secure the lock nut with a torque wrench to the recommended 5.1 N·m (45 in·lb) rating, ensuring you never exceed the absolute maximum 7.3 N·m (65 in·lb) torque ceiling.
Fluid Protection and Environmental Thermal Integrity
The integrated Viton O-ring provides a robust fluid seal between the probe tip and the outer case barrel. While the module handles a broad operating spectrum from -52°C to +177°C, avoid exposing the probe to sustained temperatures below -34°C (-30°F). Prolonged sub-freezing exposure can cause premature hardening or failure of the pressure seal, allowing internal lubricating oils to weep past the boundary wall.
Cable Management and ClickLoc Joint Security
Route the 1.0-meter FEP-insulated 75 Ω coaxial cable through structural channels toward the local field junction box. Ensure the cable path stays free from severe kinks or heavy crushing forces that could pinch the FEP dielectric jacket. Align the miniature ClickLoc connectors carefully and press them together until they snap into place, ensuring low contact resistance across the 4.2 Ω DC feedback path.
Engineering Advantages
Deep-Reach Industrial Structural Case
The 9.0-inch extended case length of the 330901-00-90-10-02-05 probe is engineered to bridge thick outer machine housings, allowing direct internal monitoring without the need for custom sleeve adapters. The rugged AISI 304 stainless steel body combined with a high-durability Polyphenylene Sulfide (PPS) tip ensures long-term resistance to oil saturation and structural stress.
Focused Narrow-View Field Calibration
The NSv line features a highly concentrated eddy current field distribution pattern. This design allows the 330901 probe to function accurately in restricted spaces, ensuring true shaft displacement metrics remain free from distortion caused by nearby metal edges or narrow bearing housing profiles.
Technical FAQs
Q1: What does the "00" option indicate regarding the mechanical design?
A1: The "00" option means the probe body features continuous 1/4-28 UNF threading all the way up to the sensing tip sleeve, allowing full adjustment depth along its entire 9.0-inch case profile.
Q2: Can I field-test the pressure seals of these probes prior to system startup?
A2: Probes are equipped with high-quality Viton O-rings but are not pressure-tested before factory shipment. If your installation requires tight pressure boundaries, perform an ambient-temperature leak check after installation before running fluid lines up to pressure.
Q3: Why must this probe be paired strictly with an NSv extension cable system?
A3: The 3300 XL NSv system utilizes a unique 75 Ω characteristic line impedance and a 4.2 Ω nominal DC resistance profile. Mixing these with standard 50 Ω 3300 XL monitoring components will cause impedance mismatches, distorting calibration data and compromising machinery protection accuracy.
Especificações Adicionais
Escalar (V/f)
Vetor
Alimentado por corrente alternada
Guia de Compra
- Confirme o modelo exato, número da peça e especificações antes de fazer o pedido.
- Garanta a compatibilidade com sua máquina ou sistemas de controle atuais.
- Entre em contato pelo sale@etowonauto.com ou pelo +8617859788089 para assistência técnica.
- Verifique as opções de entrega, prazos e requisitos de envio.
- Siga as instruções do fabricante e as melhores práticas durante a instalação.
Envio e Devolução
Itens em estoque geralmente são despachados no mesmo dia útil. Para produtos que não estão disponíveis no momento, os prazos de despacho podem variar conforme a disponibilidade. O envio internacional está disponível, e os custos de envio são calculados de acordo com o destino, peso e transportadora escolhida.
Devoluções são aceitas dentro de 30 dias após o recebimento, desde que os itens estejam sem uso e em condição original. Os custos de envio para devolução são de responsabilidade do cliente. Por favor, entre em contato conosco antes de devolver qualquer item para receber a autorização de devolução.
Para mais detalhes, por favor, consulte nossa Política de Envio e Devolução.

3500/61-05-CN Temperature Monitor Module | Bently Nevada
3500/22-01-02-CN TDI Module Bently Nevada
Bently Nevada 3500/42-04-00 | Seismic Monitor
-
Envio Rápido
Peças originais de automação industrial disponíveis para envio rápido em todo o mundo.
-
Devoluções Fáceis
Suporte para devolução em 30 dias com garantia de 12 meses para proteção confiável pós-venda.
-
Suporte 24 horas por dia, 7 dias por semana
Suporte profissional responsivo para ajudar a manter operações estáveis e eficientes.
-
Autêntico e Original
100% autêntico, proveniente diretamente de fabricantes confiáveis de automação industrial.
Guia Técnico e de Compra
-
Best Practices for Integrating AB PLCs with Emerson DCS?
Field‑tested solutions for integrating Allen‑Bradley PLCs with Emerson DCS. Quantifies efficiency losses, analyzes pr...
-
Why Are Isolated Plant Monitoring Systems Still Failing in 2026?
Most process plants still operate disconnected monitoring and control systems, missing subtle mechanical faults that ...
-
Can DeltaV Redundant DCS Eliminate Oil & Gas Shutdowns?
This article examines Emerson DeltaV DCS redundant architecture for oil and gas, presenting outage cost data, 1:1 red...
-
Why Are Legacy PLCs the Biggest Risk in New Energy Smart Factories?
This technical article examines how Allen‑Bradley Safety PLC resolves the safety-efficiency paradox in lithium batter...
-
Can Bently Nevada + GE Fanuc PLC Prevent Mill Shutdowns?
This article examines Bently Nevada sensors integrated with GE Fanuc PLC for predictive maintenance in metallurgy. 20...
-
What Is the Data-Driven Strategy for Guaranteeing Genuine Control Spares?
Fragmented spare parts procurement causes 68% of unplanned plant shutdowns and inflates costs by 22% annually. This e...
